高分子微球 的英文怎麼說
中文拼音 [gāofēnziwéiqiú]
高分子微球
英文
polymer microsphere- 高 : Ⅰ形容詞1 (從下向上距離大; 離地面遠) tall; high 2 (在一般標準或平均程度之上; 等級在上的) above...
- 分 : 分Ⅰ名詞1. (成分) component 2. (職責和權利的限度) what is within one's duty or rights Ⅱ同 「份」Ⅲ動詞[書面語] (料想) judge
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 球 : 名詞1 (以半圓的直徑為軸 使半圓旋轉一周而成的立體; 由中心到表面各點距離都相等的立體) sphere; glo...
- 高分子 : [化學] high polymer; macromolecule高分子化合物 polymer compound; macromolecular compound; high mo...
- 高分 : greater value
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Preparation of barium sulfate - polyacrylamide composite microspheres
高分子復合微球的制備研究Chapter 3. elaborate the theoretics of making polymer grin micro - lens by means of suspension - diffusion - copolymerization, include monomer selection, the process of suspension diffusion copolymerization and the condition control of the chemosynthesis process. chapter 4
第三章介紹應用懸浮擴散共聚法制備高分子grin透鏡的機理,高分子材料的篩選、應用懸浮擴散共聚法制備grin微球透鏡的工藝過程及對各種反應條件的控制。Preparation and application of polymer composite conductive microsphere
高分子復合導電微球的制備及其應用初探The microgels of close monodispersity with different volume and cross - linking density can be prepared by using an inverse emulsion polymerization method. both artificial and natural materials, including zeolites, membranes, vesicles, liquid crystal, microemulsion, micelles, biopolymers, etc., have been used as template. the three - dimentional network structure and spherical morphology of polymeric microgels may guarantee the homogeneous of the structure of the composite, the size and the morphology of the various organic - inorganic composites with unusual structures
在反相乳液聚合條件下,通過控制反應條件可以得到體積不同、交聯度不同的近乎單分散的微凝膠,如同分子篩、單(多)分子膜、囊泡、液晶、微乳液、膠束、生物大分子等可作為微納米無機材料合成模板一樣,高分子微凝膠所特有的三維網路結構和球形形貌有可能對在其中進行的無機結晶或沉積反應施加限域和導向作用,從而控制所生成無機材料的形貌和大小,得到各種具有特異結構的無機-有機復合材料。Ion - exchange filler are used in ion - exchange chromatogram ; filler such as gel or polymer microsphere are used in molecular exclusion chromatogram, etc ; chiral bonded filler is used in chiral resolution of corresponding isomer
離子交換填充劑用於離子交換色譜;凝膠或高分子微球等填充劑用於分子排阻色譜等;手性鍵合填充劑用於對映異構體的拆分分析。This work studies a kind of polymer gradient reflective index ( grin ) micro - sphere - lens
本工作研究一類具有梯度折射率( gradientrefractiveindex , grin )分佈的高分子聚合物微球透鏡。The urea - formaldehyde ( uf ) polymer / sio2 composite microspheres were prepared by polymerization - induced colloid aggregation ( pica ) method. the formation mechanism of composite microspheres is attributed to the fact that that urea and formaldehyde firstly undergo acid - catalyzed polymerization to form oligomers, and then the sol particles are adsorbed on the chain of oligomers by wan der walls force and hydrogen bonding. when the oligomers reach the critical chain length, they separate from solution due to phase separation
對復合微球形成機理的研究表明,尿素和甲醛在酸性條件下自身聚合可以形成高分子微球,在sio _ 2酸性溶膠中發生聚和反應時,隨著反應的進行,齊聚物不斷生成, sio _ 2膠體顆粒逐漸吸附在齊聚物分子鏈上,當聚合物鏈達到沉澱臨界鏈長時,由於相分離作用,從前驅物溶液中析出,同時sio _ 2膠體顆粒均勻的分佈在脲醛聚合物網路中,隨之沉澱出來,形成脲醛sio _ 2復合微球。In recent years, magnetic polymeric particles, due to their relatively rapid and easy magnetic separation, have been used in biomedical and bioengineering such as cell separation, immunoassy and nucleic acids concentration
磁性高分子復合微球是指通過適當的方法使有機高分子與無機磁性物質結合起來形成的具有一定磁性及特殊結構的微球。Finally enzyme is covalently immobilized. the reclaimed efficiency of immobilized enzyme that is prepared by this vector is over 76 %, but others are between 45 % and 65 %. it shows that activated magnetic polymer composite microspheres is an efficient vector that can be applied immobilization field
通過這類載體制備的固定化酶的酶活回收率在76以上,而由一般載體制備的固定化酶的酶活回收率在45 - 65之間,這表明活化后的磁性高分子復合微球是一類可以應用於酶固定化領域的高效載體。In this study, it has been put forward that taking reactive nanometer magnetic fe304 particles as magnetic nucleus, and the copolymer of styrene ( st ) ? crylic acid ( aa ) as macromolecular shell, we could synthesize, magnetic polymer composite microspheres containing carboxyl groups on their surface, then microspheres are activated by thionylchloride, the surface of such magnetic composite microspheres thus produced had reactive acid chloride groups which then react with the free amino groups of the free soluble enzymes to give peptide bonds ( ? o ? h ?,
本研究首次提出了以納米級磁性fe _ 3o _ 4粒子為核心,苯乙烯( st ) ?丙烯酸( aa )共聚物為高分子殼層,合成了表面帶羧基的磁性高分子復合微球,然後將這種微球用二氯亞碸進行活化處理,在其表面形成了反應性酰氯基團,該基團可以與游離酶的氨基形成肽鍵,從而將游離酶固定化。2 with dispersion - polymerization, taking above reactive nanometer magnetic fe304particles as nucleus, and the copolymer of styrene ( st ) ? crylic acid ( aa ) as macromolecular shell, we could synthesize, magnetic polymer composite microspheres containing carboxyl groups on their surface
2採用分散聚合法,以上述反應型納米磁性fe _ 3o _ 4粒子為核心,苯乙烯( st ) ?丙烯酸( aa )共聚物為高分子殼層,合成了表面帶羧基的磁性高分子復合微球。Research progress in magnetic polymer microspheres
磁性高分子微球研究進展Preparation of steady porous polymer microespheres by suspension polymerization
懸浮聚合法制備穩定的多孔高分子微球Synthesis and characterization of magnetic polymer microspheres with surface hydroxy groups
含羥基磁性高分子微球的合成與表徵In addition, magnetic polymeric particles offer a high potential in several areas of application such as detoxification of biological fluid and the magnetic guidance of particle systems for specific drug delivery process
因磁性高分子復合微球同時兼具普通高分子微球的眾多特性和磁響應性,因此在生物技術、分離工程等諸多領域顯示出廣闊的應用前景。Several kinds of preparation methods and the applied developments of magnetic polymer microsphere in cell separation, immobilized enzyme, dna separation and medicine carrier are discussed in detail, and the prospects of magnetic polymer microsphere are also proposed
在此基礎上,對磁性高分子微球在細胞分離、固定化酶、靶向藥物、核酸分離等領域的最新應用及存在的問題進行了分析,並指出了該領域今後的研究方向。On the basis of the research efforts of magnetic polymer nanocomposite at home and abroad in recent years, the preparation methods of magnetic polymer nanocomposite were reviewed in this article, the latest research advanced in magnetic polymer nanocomposite with core - shell structure and sandwich structure were also reviewed in detail, and also the applications in determinating microbe and organism in water determination were summarized
在總結國內外有關磁性高分子微球研究成果的基礎上,介紹了納米磁性高分子復合微球的制備方法,重點闡述了核殼式結構和三明治式結構納米磁性高分子復合微球制備的最新研究進展,概述了磁性高分子復合微球在檢測水中微生物和有機物的應用。Ps - mpm was prepared by improved microsuspension polymerization. product structure, particle size and magnetic properties, were characterized and the reaction mechanism was analyzed. such influencing factors as the indissoluble assistant, the dispersant agent, the surfactants, the amount of initiator and the stirring speed were surveyed
本文採用了一種難溶助劑,用改進了的微懸浮聚合法制備出了聚苯乙烯磁性高分子微球,對產物進行了結構、粒徑、磁性能的表徵,分析了反應機理,並探討了難溶助劑、分散劑、表面活性劑、引發劑用量、攪拌速度等因素對磁性高分子微球性能的影響。It has been demonstrated that it is the microgel that guaranteed the homogeneous of the structure of the composite, the size and the morphology of the composite particles. the surface structure of the micro - particles can be adjusted by changing the preparing conditions. the composites may adopt hollow sphere structure, and the inner may lack of cds due to precipitation was started from the outer part of the microgels
實驗結果表明:高分子微凝膠的三維網路結構和所採用的制備方法確保了有機-無機復合材料復合的均勻性;微凝膠的模板作用使得復合材料呈球狀結構,微球的大小決定於模板的尺寸;微球的微納米結構可因微球的制備條件的不同(例如,改變連續相類型)而不同。The development of research on magnetic polymer microspheres
磁性高分子復合微球的研究進展分享友人